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Physiological and molecular responses to combinatorial iron and phosphate deficiencies in hexaploid wheat seedlings

Gazaldeep Kaur, Vishnu Shukla, Varsha Meena, Anil Kumar, Deepshikha Tyagi, Jagtar Singh, Pramod Kaitheri Kandoth, Shrikant Mantri, Hatem Rouached, Ajay Kumar Pandey

2021Genomics16 citationsDOIOpen Access PDF

Abstract

Iron (Fe) and phosphorus (P) are the essential mineral nutrients for plant growth and development. However, the molecular interaction of the Fe and P pathways in crops remained largely obscure. In this study, we provide a comprehensive physiological and molecular analysis of hexaploid wheat response to single (Fe, P) and its combinatorial deficiencies. Our data showed that inhibition of the primary root growth occurs in response to Fe deficiency; however, growth was rescued when combinatorial deficiencies occurred. Analysis of RNAseq revealed that distinct molecular rearrangements during combined deficiencies with predominance for genes related to metabolic pathways and secondary metabolite biosynthesis primarily include genes for UDP-glycosyltransferase, cytochrome-P450s, and glutathione metabolism. Interestingly, the Fe-responsive cis-regulatory elements in the roots in Fe stress conditions were enriched compared to the combined stress. Our metabolome data also revealed the accumulation of distinct metabolites such as amino-isobutyric acid, arabinonic acid, and aconitic acid in the combined stress environment. Overall, these results are essential in developing new strategies to improve the resilience of crops in limited nutrients.

Topics & Concepts

BiologyMetabolomeBiochemistryGeneMetaboliteMetabolomicsMetabolismIsobutyric acidAmino acidMetabolic pathwayBioinformaticsPlant Micronutrient Interactions and EffectsPlant nutrient uptake and metabolismPhytase and its Applications
Physiological and molecular responses to combinatorial iron and phosphate deficiencies in hexaploid wheat seedlings | Litcius